1. Tsunami Hazards in Cascadia :
by
Timothy J. Walsh
Washington Department of Natural
Resources
Division of Geology and Earth Resources
Partners in Emergency
Preparedness
April 27, 2011
2. •On April 1, 1946, a
magnitude 8.0 (Mw)
earthquake with the
source in the
Aleutian Islands to
the south of Unimak
Island generated a
tsunami that
destroyed this five-
story lighthouse,
located 9.8 m above
sea level.
3. •Only the
foundation and
part of the
concrete sea wall
remained. All five
occupants were
killed. The waves
deposited debris
as high as 35 m
above the sea.
Although little
damage occurred
in Alaska, except
at Scotch Cap, the
tsunami was one
of the most
destructive ever to
occur in the
Hawaiian Islands.
Photo credit: U.S.
8. •At least 24 people were killed here, many of whom were children
playing by the waterfront. The tragedy of the 1946 tsunami
prompted the U.S. Coast and Geodetic Survey to establish the
Tsunami Warning System
9.
10. Abridged from
Seismicity of the
United States,
1568-1989
(Revised), by
Carl W. Stover
and Jerry L.
Coffman, U.S.
Geological
Survey
Professional
Paper 1527,
United States
Government
Printing Office,
Washington:
1993.
Prince William Sound, Alaska
1964 March 28 03:36:14 UTC (March 27
local) Magnitude 9.2
11. Valdez sits on the edge of an outwash delta 150 km from the epicenter. During
the shaking, the unstable, saturated material failed. A slice of the delta, 1,220
m long and 183 m wide, slid into the sea, carrying the docks and part of the
town with it. The slide generated a wave which slammed the waterfront 2 to 3
minutes after the onset of the quake. The wave demolished the rest of the
waterfront, destroyed the fishing fleet, and reached 2 blocks into town, killing 30
people
12. Tsunami damage from the
Highway 109 bridge over 1964 Alaska earthquake
Copalis River
The wave here was about
10-12 feet.
Highway 109 bridge
House torn apart over Joe Creek
at Pacific Beach
13. This earthquake also generated a Pacific Ocean-wide tsunami that killed 110
people, 8 here in Crescent City, CA. Note fire in background. This event led to
the opening of a second tsunami warning center in Palmer, Alaska.
14. 1993
Okushiri
Island
A view of tsunami and related fire damage on southeast Okushiri
Island in the community of Aonae. Photo orientation is looking
northeast. Numerous fires broke out following the tsunami, adding
to the property loss and misery. More than 120 people were killed
in Japan (Okushiri and Hokkaido Islands) by the tsunami.
15. On the west side of Okushiri Island many locations experienced a maximum runup of
over 20 m. This small valley leading to the ocean experienced a spectacular runup of 31
m. Note the debris in the foreground, including a broken steel reinforced concrete utility
pole. Discolored and dead plants and grasses are evident on the hillside. This well-
studied earthquake and tsunami led to significant advances in modeling tsunamis.
16.
17. Placer
River Silt
Earthquake-induced
ground crack
Drowned forest in Girdwood, Alaska, killed in 1964
A.D. 1700
Ground
surface
1,100 year
old ground
surface
from Brian Atwater
Drowned forest along the Copalis River,
Washington, killed in A.D. 1700
18. Right, subsided marsh
along the Niawiakum River,
Tsunami sands
southwest Washington.
Below, note pitfalls of
working in tidal marshes.
A.D. 1700 ground
surface
19. The realization that Cascadia was active was instrumental to the creation of
the National Tsunami Hazard Mitigation Program, which develops tsunami
inundation maps for vulnerable coastlines. These are based on a combination
of numerical modeling, and , where possible, paleoseismology.
23. Tsunami parade at Hiro.
Storm surge trace
REMEMBER
THE PAST
Tsunami monument
from Nobuo Shuto
24. A TRAGEDY OF FOREIGN TOURIST WHO
COULD NOT UNDERSTAND WARNING
Her last position
from Nobuo Shuto
25. Washington has a limited historical record, so we rely on
modeling to establish tsunami hazard zones
26. A tsunami generated by a Cascadia
subduction zone earthquake will
arrive in less than 45 minutes. For
these events, as was the case in
Banda Aceh, the earthquake must be
the warning. Citizens must know
where to evacuate from and where to
evacuate to, and must do so quickly
and on foot.
Note the long peninsulas or spits of
low-lying ground. Ocean Shores
peninsula is 7 miles long and Long
Beach peninsula is 20 miles long with
little or no high ground over those
distances. For these areas, tsunami
defenses are appropriate.
27. After
TWO BUILDINGS
IN AONAE,
1993
During
Before (北海道新聞社)
from Nobuo Shuto
28. THE TWO
BUILDINGS
THAT REMAINED.
Tsunami trace
This building stopped a house and boats.
29. Those two buildings
and other Japanese
tsunami defense
structures formed
the basis of a study
of buildings that
survived
devastating
tsunamis when
everything else in
the area was
destroyed.
30. DEFENCE
STRUCTURES
SEA WALLS
TSUNAMI BREAKWATERS
TSUNAMI GATE
HIGHTENING OF RIVER DIKES
from Nobuo Shuto
38. At Minami-
Sanriku town,
an apartment
building was
situated right
next to the
coast and
designated as
an evacuation
building as
shown by
evacuation
signs, but there
were traces
that tsunami
also had
reached the 4th
floor.
39. This three-story
building (below) was
the disaster
management center
of the town which
was also designed
to function as a
tsunami evacuation
building. At the time
of tsunami, about
thirty municipal
officials evacuated
to the rooftop but
only ten of them
survived. A young
female official who
kept delivering
evacuation message
to the villagers until
the last moment has
not been found yet.
40. We formed a partnership
with FEMA and the
Applied Technology
Council to provide
building code style
guidance for building
facilities to withstand a
magnitude 9 earthquake
and be suitable for
vertical evacuation.
Planning for the right size
earthquake is critical.
41. Project Safe Haven:
Tsunami Vertical
Evacuation
Long Beach Peninsula/Pacific County
42. Safe Haven Options (from FEMA 646):
Towers –
• Limited Space
• Blocks Views
• Few Options for Shelter
Buildings –
• Expensive
• Better get it right the first time!
• Very Large, Likely to Block Views
• May require Private Development
• Incentives for Height?
Berms –
• Least Expensive Option
• Can be Multi-Purpose
• May be Placed to Limit View Blocking
43. Vertical Evacuation Safe
Haven Project
• Community-based,
‘bottom-up’ approach
• All options (buildings,
towers, berms, etc.) are on
the table for consideration
Common Themes:
• School Safety
• Seniors and special needs
populations
• More conservative travel
times